La neurotoxicité développementale associée au méthylmercure, au plomb et aux biphényles polychlorés : l’attention et le traitement visuel à l’étude

L’influence des contaminants environnementaux (CE) a été largement étudié en contexte d’exposition aigüe et d’intoxication. Qu’en est-il d’une exposition chronique à plus faibles doses sur le développement cognitif et sensoriel des enfants? Les études longitudinales de la présente thèse ont été réalisées au Nunavik. Bien que géographiquement éloignée des centres industriels, la communauté inuite est exposée aux CE via leur transport par les courants atmosphériques et océaniques ainsi que par leur bioaccumulation dans le poisson et les mammifères marins. Puisque l’alimentation autochtone traditionnelle, notamment la chair de béluga, est encore fréquemment consommée par la communauté, une proportion substantielle d’enfants inuits est exposée in utero aux CE. Ceux-ci sont également continuellement exposés à ces agents neurotoxiques durant leur développement postnatal. Or, la variation considérable dans l’adoption de l’alimentation traditionnelle au sein de la communauté représente une opportunité pour étudier la relation entre les niveaux d’exposition aux CE et le développement cognitif et sensoriel des enfants. Bien que certains déficits aient déjà été mis en lien avec l’exposition chronique aux CE dans la littérature, la présente thèse s’intéressa à cette relation plus spécifiquement chez les enfants inuits vivant dans le Grand Nord et plus exposés aux CE en raison de leur alimentation. Par ailleurs, les protocoles qui ont été développés pour cette thèse permettront d’évaluer des aspects qui ont été peu étudiés en lien avec les CE, soit l’attention visuospatiale et le traitement visuel cérébral précoce. Dans le premier volet de cette thèse, la relation entre trois CE et l’attention visuospatiale a été étudiée à l’aide d’une version adaptée de la tâche de Posner (M.I. Posner et al., 1980). Cette tâche psychophysique a été administrée à des enfants inuits (âge moyen = 11.2 ans) dont les niveaux d’exposition au mercure (Hg), au plomb (Pb) et aux biphényles polychlorés (BPCs) ont été documentés durant les périodes pré et postnatale. Les expositions in utero au Pb et aux BPCs ont été significativement associées à de l’impulsivité et de l’inattention, respectivement, alors que l’exposition postnatale au Pb a été associée à des temps de réaction plus longs. Bien qu’aucune relation spécifique avec l’attention visuospatiale n’ait été trouvée, les résultats de cette étude suggèrent que l’exposition aux CE est associée à une diminution des capacités attentionnelles générales chez les enfants résidant au Nunavik. Dans le second volet, le traitement cérébral précoce de l’information visuelle a été examiné à l’aide de potentiels évoqués visuels auprès d’enfants de la même communauté (âge moyen = 10.9 ans). La concentration de Hg dans le sang de cordon ombilical mesurée à la naissance a été associée à une réduction de l’amplitude et à une augmentation de la latence de la composante N75. L’exposition prénatale au Pb a quant à elle été associée à un délai dans la latence de la composante N150. Les résultats obtenus suggèrent ainsi que l’exposition aux métaux lourds, en particulier durant la période gestationnelle, serait associée à des altérations dans le développement visuel. Les résultats présentés dans cette thèse soutiennent l’hypothèse selon laquelle le cerveau en développement est vulnérable lors d’une exposition chronique aux CE, et cela même à des niveaux de concentration inférieurs aux limites recommandées par les organismes de santé publique. Les résultats permettent également d’apporter un éclairage nouveau sur les déficits cognitifs et sensoriels associés aux CE.

Développements et applications de méthodes computationnelles pour l'étude de l'agrégation des protéines amyloïdes

Les protéines sont au coeur de la vie. Ce sont d'incroyables nanomachines moléculaires spécialisées et améliorées par des millions d'années d'évolution pour des fonctions bien définies dans la cellule. La structure des protéines, c'est-à-dire l'arrangement tridimensionnel de leurs atomes, est intimement liée à leurs fonctions. L'absence apparente de structure pour certaines protéines est aussi de plus en plus reconnue comme étant tout aussi cruciale. Les protéines amyloïdes en sont un exemple marquant : elles adoptent un ensemble de structures variées difficilement observables expérimentalement qui sont associées à des maladies neurodégénératives. Cette thèse, dans un premier temps, porte sur l'étude structurelle des protéines amyloïdes bêta-amyloïde (Alzheimer) et huntingtine (Huntington) lors de leur processus de repliement et d'auto-assemblage. Les résultats obtenus permettent de décrire avec une résolution atomique les interactions des ensembles structurels de ces deux protéines. Concernant la protéine bêta-amyloïde (AB), nos résultats identifient des différences structurelles significatives entre trois de ses formes physiologiques durant ses premières étapes d'auto-assemblage en environnement aqueux. Nous avons ensuite comparé ces résultats avec ceux obtenus au cours des dernières années par d'autres groupes de recherche avec des protocoles expérimentaux et de simulations variés. Des tendances claires émergent de notre comparaison quant à l'influence de la forme physiologique de AB sur son ensemble structurel durant ses premières étapes d'auto-assemblage. L'identification des propriétés structurelles différentes rationalise l'origine de leurs propriétés d'agrégation distinctes. Par ailleurs, l'identification des propriétés structurelles communes offrent des cibles potentielles pour des agents thérapeutiques empêchant la formation des oligomères responsables de la neurotoxicité. Concernant la protéine huntingtine, nous avons élucidé l'ensemble structurel de sa région fonctionnelle située à son N-terminal en environnement aqueux et membranaire. En accord avec les données expérimentales disponibles, nos résultats sur son repliement en environnement aqueux révèlent les interactions dominantes ainsi que l'influence sur celles-ci des régions adjacentes à la région fonctionnelle. Nous avons aussi caractérisé la stabilité et la croissance de structures nanotubulaires qui sont des candidats potentiels aux chemins d'auto-assemblage de la région amyloïde de huntingtine. Par ailleurs, nous avons également élaboré, avec un groupe d'expérimentateurs, un modèle détaillé illustrant les principales interactions responsables du rôle d'ancre membranaire de la région N-terminal, qui sert à contrôler la localisation de huntingtine dans la cellule. Dans un deuxième temps, cette thèse porte sur le raffinement d'un modèle gros-grain (sOPEP) et sur le développement d'un nouveau modèle tout-atome (aaOPEP) qui sont tous deux basés sur le champ de force gros-grain OPEP, couramment utilisé pour l'étude du repliement des protéines et de l'agrégation des protéines amyloïdes. L'optimisation de ces modèles a été effectuée dans le but d'améliorer les prédictions de novo de la structure de peptides par la méthode PEP-FOLD. Par ailleurs, les modèles OPEP, sOPEP et aaOPEP ont été inclus dans un nouveau code de dynamique moléculaire très flexible afin de grandement simplifier leurs développements futurs.

Alterations in the muscarinic M I and M3 receptor gene expression in the brain stem during pancreatic regeneration and insulin secretion in weanling rats

Muscarinic M1 and M3 receptor changes in the brain stem during pancreatic regeneration were investigated. Brain stem acetylcholine esterase activity decreased at the time of regeneration . Sympathetic activity also decreased as indicated by the norepinephrine (NE) and epinephrine (EPI) content of adrenals and also in the plasma. Muscarinic Ml and M3 receptors showed reciprocal changes in the brain stem during regeneration. Muscairnic M1 receptor number decreased at time of regeneration without any change in the affinity. High affinity M3 receptors showed an increase in the number. The affinity did not show any change . The number of low affinity receptors decreased with decreased Kd at 72 hours after partial pancreatectomy. The Kd reversed to control value with a reversal of the number of receptors to near control value . Gene expression studies also showed a similar change in the mRNA level of Ml and M3 receptors . These alterations in the muscarinic receptors regulate sympathetic activity and maintain glucose level during pancreatic regeneration. Central muscarinic M1 and M3 receptor subtypes functional balance is suggested to regulate sympathetic and parasympathetic activity, which in turn control the islet cell proliferation and glucose homeostasis.

Generation of Variability for Salt Tolerance in Rice Using Tissue Culture Techniques

The study deals with the generation of variability for salt tolerance in rice using tissue culture techniques. Rice is the staple food of more than half of the world’s population. The management of drought, salinity and acidity in soils are all energy intensive agricultural practices. The Genetic variability is the basis of crop improvement. Somaclonal and androclonal variation can be effectively used for this purpose. In the present study, eight isozymes were studied and esterase and isocitric dehydrogenase was found to have varietal specific, developmental stage specific and stress specific banding pattern in rice. Under salt stress thickness of bands and enzyme activity showed changes. Pokkali, a moderately salt tolerant variety, had a specific band 7, which was present only in this variety and showed slight changes under stress. This band was faint in tillering and flowering stage .Based on the results obtained in the present study it is suggested that esterase could possibly be used as an isozyme marker for salt tolerance in rice. Varietal differences and stage specific variations could be detected using esterase and isocitric dehydrogenase . Moreover somaclonal and androclonal variation could be effectively detected using isozyme markers.

MUSCARINIC M1 AND M3 RECEPTOR GENE EXPRESSION DURING PANCREATIC REGENERATION AND INSULIN SECRETION IN RATS

The present work is an attempt to understand the role of acetylcholine muscarinic M1 and M3 receptors during pancreatic regeneration and insulin secretion. The work focuses on the changes in the muscarinic M1 and M3 receptors in brain and pancreas during pancreatic regeneration. The effect of these receptor subtypes on insulin secretion and pancreatic P-cell proliferation were studied in vitro using rat primary pancreatic islet culture. Muscarinic Ml and M3 receptor kinetics and gene expression studies during pancreatic regeneration and insulin secretion will help to elucidate the role of acetylcholine functional regulation of pancreatic u-cell proliferation and insulin secretion.The cholinergic system through muscarinic M1 and M3 receptors play an important role in the regulation of pancreatic (3-cell proliferation and insulin secretion . Cholinergic activity as indicated by acetylcholine esterase, a marker for cholinergic system, decreased in the brain regions - hypothalamus, brain stem, corpus striatum, cerebral cortex and cerebellum during pancreatic regeneration. Pancreatic muscarinic M1 and M3 receptor activity increased during proliferation indicating that both receptors are stimulatory to (3-cell division. Acetylcholine dose dependently increase EGF induced DNA synthesis in pancreatic islets in vitro, which is inhibited by muscarinic antagonist atropine confirming the role of muscarinic receptors. Muscarinic M1 and M3 receptor antagonists also block acetycholine induced DNA synthesis suggesting the importance of these receptors in regeneration. Acetylcholine also stimulated glucose induced insulin secretion in vitro which is inhibited by muscarinic M1 and M3 receptor antagonists. The muscarinic receptors activity and their functional balance in the brain and pancreas exert a profound influence in the insulin secretion and also regeneration of pancreas

Muscarinic M1, M3, Nicotinic,GABAA and GABAB Receptor Subtypes Gene Expression in Insulin Induced Hypoglycemic Rat Brain Regions: Functional Regulation through Phospholipase C and CREB Protein

In the present study, a detailed investigation on the alterations of muscarinic M1, M3, α7 nicotinic acetylcholine receptor (α7 nAchR), GABA receptors and its subtypes; GABAAα1 and GABAB in the brain regions of streptozotocin induced diabetic and insulin induced hypoglycemic rats were carried out. Gene expression of acetylcholine esterase (AChE), choline acetyltransferase (ChAT), GAD, GLUT3, Insulin receptor, superoxide dismutase (SOD), Bax protein, Phospholipase C and CREB in hypoglycemic and hyperglycemic rat brain were studied. Muscarinic M1, M3 receptors, AChE, ChAT, GABAAα1, GABAB, GAD, Insulin receptor, SOD, Bax protein and Phospholipase C expression in pancreas was also carried out. The molecular studies on the CNS and PNS damage will elucidate the therapeutic role in the corrective measures of the damage to the brain during hypoglycemia and hyperglycemia.

Muscarinic M1 and M3 Receptors,IP3 and cGMP Functional Regulation in Streptozotocin Induced Diabetic Rats: Insulin and Somatotropin Induced Rejuvenation as a Function of Age

The present study describes that acetylcholine through muscarinic Ml and M3 receptors play an important role in the brain function during diabetes as a function of age. Cholinergic activity as indicated by acetylcholine esterase, a marker for cholinergic function, decreased in the brain regions - the cerebral cortex, brainstem and corpus striatum of old rats compared to young rats. in diabetic condition, it was increased in both young and old rats in cerebral cortex, and corpus striatum while in brainstem it was decreased. The functional changes in the muscarinic receptors were studied in the brain regions and it showed that muscarinic M I receptors of old rats were down regulated in cerebral cortex while in corpus striatum and brainstem it was up regulated. Muscarinic M3 receptors of old rats showed no significant change in cerebral cortex while in corpus striatum and brainstem muscarinic receptors were down regulated. During diabetes, muscarinic M I receptors were down regulated in cerebral cortex and brainstem of young rats while in corpus striatum they were up regulated. In old rats, M I receptors were up regulated in cerebral cortex, corpus striatum and in brainstem they were down regulated. Muscarinic M3 receptors were up regulated in cerebral cortex and brainstem of young rats while in corpus striatum they were down regulated. In old rats, muscarinic M l receptors were up regulated in cerebral cortex, corpus striatum and brainstem. In insulin treated diabetic rats the activity of the receptors were reversed to near control. Pancreatic muscarinic M3 receptor activity increased in the pancreas of both young and old rats during diabetes. In vitro studies using carbachol and antagonists for muscarinic Ml and M3 receptor subtypes confirmed the specific receptor mediated neurotransmitter changes during diabetes. Calcium imaging studies revealed muscarinic M I mediated Ca2 + release from the pancreatic islet cells of young and old rats. Electrophysiological studies using EEG recording in young and old rats showed a brain activity difference during diabetes. Long term low dose STH and INS treated rat brain tissues were used for gene expression of muscarinic Ml, M3, glutamate NMDARl, mGlu-5,alpha2A, beta2, GABAAa1 and GABAB, DAD2 and 5-HT 2C receptors to observe the neurotransmitter receptor functional interrelationship for integrating memory, cognition and rejuvenating brain functions in young and old. Studies on neurotransmitter receptor interaction pathways and gene expression regulation by second messengers like IP3 and cGMP in turn will lead to the development of therapeutic agents to manage diabetes and brain activity.From this study it is suggested that functional improvement of muscarinic Ml, M3, glutamate NMDAR1, mGlu-5, alpha2A, beta2, GABAAa1 and GABAB, DAD2 and 5-HT 2C receptors mediated through IP3 and cGMP will lead to therapeutic applications in the management of diabetes. Also, our results from long term low dose STH and INS treatment showed rejuvenation of the brain function which has clinical significance in maintaining healthy period of life as a function of age.

Ecotoxicological Assessment of Antifouling Biocides in the Sediments of Cochin Estuarine System

The pollutants discharged into the estuaries are originate from two main sources-industrial and sewage. The former may be toxic which includes heavy metals, residues from antifouling paint particles and pesticides, while large discharges of sewage will contain pathogenic microorganisms. The contamination is enough to destroy the amenities of the waterfront, and the toxic substances may completely destroy the marine life and damage to birds, fishes and other marine organisms. Antifouling biocides are a type of chemical used in marine structure to prevent biofouling. These antifouling biocides gradually leach from the ships and other marine structures into water and finally settled in sediments. Once a saturation adsorption is reached they desorbed into overlying water and causes threat to marine organisms. Previous reports explained the imposex and shell thickening in bivalves owing to the effect of biocides. So bivalves are used as indicator organisms to understand the status of pollution. The nervous system is one of the best body part to understand the effect of toxicant. Acetylcholine esterase enzyme which is the main neurotransmitter in nervous was used to understand the effect of pollutants. Present study uses Acetylcholine esterase enzyme as pollution monitoring indicator

Mögliche Komponenten in einem Signalweg zwischen endosomaler Verdauung und Partikelaufnahme in Dictyostelium discoideum

Die Amöbe Dictyostelium discoideum ist ein genetisch leicht manipulierbarer Organismus und dient als Modell für verschiedene zelluläre Prozesse, wie z.B. der Endocytose. Hierbei konnte vieles über die Funktion von beteiligten Proteinen anhand von Untersuchungen an spezifischen Mutanten gelernt werden. Bei AlyA handelt es sich um D. discoideum spezifisches Lysozym. GFP-modifiziertes AlyA lokalisiert in Phagosomen und in einer neuen Klasse von Vesikeln lysososomaler Enzyme. Über Rescue Mutanten konnte der Phänotyp alyA138 Knockout Mutanten, einer erhöhten Phagocytoserate einhergehend mit einem verbesserten Wachstum auf Bakterienrasen, der gerettet werden. In AlyA Null Zellen wurde eine erhöhte Expression von Gp70, einer lysosomalen Esterase, gefunden. Die Überexpression von Gp70 alleine führt mit geringen Unterschieden zu einem Phänotyp ähnlich der alyA Knockout Mutante. Demzufolge scheinen beide Enzyme eine Funktion in einer gemeinsamen Signalskaskade, ausgehend von der Degradation internalisierter Bakterien hin zu einer erhöhten Phagocytoserate, zu haben. Eine erhöhte Lysozymaktivität in Gp70 Überexprimierern wurde nicht gefunden. Mit H5 konnte mittels Microarray Analysen ein Protein identifiziert werden, welches in den alyA138 Knockout Zellen, jedoch nicht in Gp70 Überexprimierern, verstärkt exprimiert wird. Eine Funktion in einer Signalkette zwischen AlyA und Gp70, wie die erhöhte Expression vermuten lässt, konnte jedoch nicht bestätigt werden. So führt die Überexpression von H5 weder zu einer erhöhten Phagocytoserate noch zu einer verstärkten Expression von Gp70. Mittels der Microarray Analysen konnten weiterhin acht Gene identifiziert werden, die in den beiden Mutanten schwächer exprimiert vorliegen. Knockaout Mutanten zweier dieser Gene, sse346 und ssj758, wurden untersucht. Sse346 Null Zellen zeigen eine erhöhte Phagocytoserate einhergehend mit effizienterem Wachstum auf Bakterienrasen, während das Fehlen von Ssj758 nur zu vergrößerten Plaquedurchmessern führte. Beide proteine haben demnach eine Funktion in der postulierten Signalkaskade. Diese scheint, ausgehend von der Überexpression von Gp70, zweigeteilt zu verlaufen.

Unveiling the components of the signaling pathway between endosomes and the phagocytic uptake machinery in Dictyostelium discoideum

The soil amoebae Dictyostelium discoideum take up particles from their environment in order to obtain nutrition. The particle transits through the cell within a phagosome that fuses with organelles of different molecular compositions, undergoing a gradual degradation by different sets of hydrolytic enzymes. Griffiths’ concept of “phagosome individuality” predicts signaling from phagosomes into the cytoplasm, which might regulate many aspects of cell physiology. The finding that Dictyostelium cells depleted of the lysozyme AlyA or over-expressing the esterase Gp70 exhibit increased uptake of food particles, led to the postulation of a signaling cascade between endocytic compartments and the cytoskeletal uptake machinery at the plasma membrane. Assuming that Gp70 acts downstream of AlyA, gene-expression profiling of both mutants revealed different and overlapping sets of misregulated genes that might participate in this signaling cascade. Based on these results, we analyzed the effects of the artificial misregulation of six candidate genes by over-expression or negative genetic interference, in order to reconstruct at least part of the signaling pathway. SSB420 and SSL793 were chosen as candidates for the first signaling step, as they were up-regulated in AlyA-null cells and remained unaltered in the Gp70 over-expressing cells. The over-expression of SSB420 enhanced phagocytosis and raised the expression levels of Gp70, supporting its involvement in the signaling pathway between AlyA and Gp70 as a positive regulator of phagocytosis. However, this was not the case of cells over-expressing SSL793, as this mutation had no effects on phagocytosis. For the signaling downstream of Gp70, we studied four commonly misregulated genes in AlyA-depleted and Gp70 over-expressing cells. The expression levels of SLB350, SSB389 and TipD were lower in both mutants and therefore these were assumed as possible candidates for the negative regulation of phagocytosis. Cells depleted of SLB350 exhibited an increased phagocytic activity and no effect on Gp70 expression, proving its participation in the signaling pathway downstream of Gp70. Unlike SLB350, the disruption of the genes coding for SSB389 and TipD had no effects on particle uptake, excluding them from the pathway. The fourth candidate was Yipf1, the only gene that was commonly up-regulated in both mutants. Yet, the artificial over-expression of this protein had no effects on phagocytosis, so this candidate is also not included in the signaling pathway. Furthermore, localizing the products of the candidate genes within the cell helped unveiling several cellular organelles that receive signals from the phagosome and transduce them towards the uptake machinery.

Charakterisierung potentiell positiver Regulatoren der Phagozytose in Dictyostelium discoideum und deren Funktion in einem Signalweg zwischen endosomaler Verdauung und Partikelaufnahme

Dictyostelium discoideum ernährt sich in seinem natürlichen Habitat, dem Waldboden, vorwiegend von Bakterien. Diese werden aus der Umgebung über Phagozytose aufgenommen und unter anderem mit Hilfe von Lysozymen verdaut. Eines dieser Lysozyme, AlyA, wurde bereits in vorhergehenden Arbeiten detailliert untersucht. Sein Fehlen resultierte in einer zeitabhängigen Vergrößerung der Fresshöfe in Bakterienrasen. Zusätzlich waren in diesen Knockout-Mutanten auch die Phagozytoserate und die Expression eines zweiten lysosomalen Enzyms (Gp70) erhöht. Die Überexpression dieser Esterase in wildtypischen Zellen bewirkte ebenfalls, dass Partikel aus der Umgebung effektiver aufgenommen werden konnten. Da die AlyA-Mutanten und die Gp70-Überexprimierer ähnliche Phänotypen zeigten, die Proteine aber in unterschiedlichen lysosomalen Vesikeln lokalisieren, müssen weitere Proteine an der Ausbildung der Phänotypen beteiligt sein. Aus diesem Grund wurden die Genexpressionen beider Mutanten verglichen. Über Microarray-Analysen sollten auf diese Weise weitere Proteine identifiziert werden, die eine Weiterleitung des Signals von AlyA über Gp70 bis hin zur Plasmamembran vermitteln. Einigen der potentiellen Kandidaten konnte anhand der Untersuchung von Mutanten bereits eine Weiterleitung des Signals zwischen Gp70 und der erhöhten Phagozytose an der Plasmamembran zugeordnet werden. Um jedoch mehr über die Signalkette oberhalb von Gp70 zu erfahren, wurden im Rahmen dieser Arbeit drei Proteine untersucht. Die Expression von DD3-3, SSD673 und SSD485 war in den AlyA-Mutanten erhöht, in den Gp70-Überexprimierern jedoch unverändert. Durch Herstellung und Untersuchung von überexprimierenden Mutanten wurde die Wirkung jedes Proteins auf die Gp70-Expression, das Phagozytoseverhalten und den Durchmesser der Fresshöfe analysiert. Die Markierung der Kandidaten mit dem Myc-Epitop sollte deren subzelluläre Lokalisation klären. Für DD3-3-überexpimierende Klone konnte in dieser Arbeit allerdings keine Veränderung gegenüber wildtypischen Zellen festgestellt werden. Sie zeigt allerdings, dass Medium von SSD673-überexprimierenden Zellen die Phagozytoserate wildtypischer Zellen leicht erhöht. Eine starke SSD673myc-Expression führte auch zu einer verstärkten Aufnahme von Hefezellen. Die Gp70-Expression in Gesamtzelllysaten der SSD673-Mutanten blieb jedoch unverändert. Wurde in Wildtypzellen hingegen SSD485 im Übermaß exprimiert, so führte dies zu einer verstärkten Partikelaufnahme. Diese entwickelte sich ähnlich den AlyA-Knockout-Mutanten in Abhängigkeit der Zeit und ging mit einer erhöhten Gp70-Expression einher. In dieser Arbeit konnte folglich zwei von drei Proteinen eine positive Wirkung auf die Phagozytose nachgewiesen werden. SSD485-Mutanten erfüllten darüber hinaus die Bedingungen für eine Weiterleitung des AlyA-Signals von SSD485 auf Gp70 bis hin zu einer erhöhten Phagozytose.

Effect of condensed tannins from tropical legumes on the activity of fibrolytic enzymes from the rumen fungus Neocallimastyx hurleyensis

A study was conducted to assess the effect of condensed tannins on the activity of fibrolytic enzymes from the anaerobic rumen fungus, Neocallimastix hurleyensis and a recombinant ferulic acid esterase (FAE) from the aerobic fungus Aspergillus niger. Condensed tannins were extracted from the tropical legumes Desmodium ovalifolium, Flemingia macrophylla, Leucaena leticocephala, Leucaena pallida, Calliandra calothyrsus and Clitoria fairchildiana and incubated in fungal enzyme mixtures or with the recombinant FAE. In most cases, the greatest reductions in enzyme activities were observed with tannins purified from D. ovalifolium and F macrophylla and the least with tannins from L leucocephala. Thus, whereas 40 mu g ml(-1) of condensed tannins from C. calothyrsus and L. leucocephala were needed to halve the activity of N. hurleyensis carboxymethylcellulase (CMCase), just 5.5 mu g ml(-1) of the same tannins were required to inhibit 50% of xylanase activity. The beta-D-glucosidase and beta-D-Xylosidase enzymes were less sensitive to tannin inhibition and concentrations greater than 100 mu g ml(-1) were required to reduce their activity by 50%. In other assays, the inhibitory effect of condensed tannins when added to incubation mixtures containing particulate substrates (the primary cell walls of E arundinacea) or when bound to these substrate was compared. Substrate-associated tannins were more effective in preventing fibrolytic activities than tannins added directly to incubations solutions. It was concluded that condensed tannins from tropical legumes can inhibit fibrolytic enzyme activities, although the extent of the effect was dependent on the tannin, the nature of its association with the substrate and the enzyme involved. (c) 2005 Elsevier Inc. All rights reserved.

Zinc-histidine complex protects cultured cortical neurons against oxidative stress-induced damage

The levels of zinc in the brain are directly affected by dietary zinc and deficiency has been associated with alcohol withdrawal seizures, excitotoxicity, impaired learning and memory and an accelerated rate of dysfunction in aged brain. Although zinc is essential for a healthy nervous system, high concentrations of zinc are neurotoxic, thus it is important to identify the most effective forms of zinc for treatment of conditions of the central nervous system. Accumulating evidence suggests that zinc-histidine complex (Zn(HiS)(2)) has greater biological potency and enhanced bioavailability compared with other zinc salts and also has antioxidant potential. Therefore, in this study we investigated the ability of zinc-histidine to protect cultured cortical neurons against hydrogen peroxide-induced damage. Pre-treating neurons for 18h with subtoxic concentrations of zinc-histidine (5-25 muM) improved neuronal viability and strongly inhibited hydrogen peroxide-induced (75 muM, 30 min) cell damage as assessed by MTT turnover and morphological analysis 24 It later. Low concentrations of zinc-histidine were more neuroprotective than zinc chloride. There was evidence of an anti-apoptotic mechanism of action as zinc-histidine inhibited hydrogen peroxide-induced caspase-3 activation and c-jun-N-terminal kinase phosphorylation. In summary, zinc supplementation with zinc-histidine protects cultured neurons against oxidative insults and inhibits apoptosis which suggests that zinc-histidine may be beneficial in the treatment of diseases of the CNS associated with zinc deficiency. (C) 2004 Elsevier Ireland Ltd. All rights reserved.

The neuroprotective potential of flavonoids: a multiplicity of effects

Flavonoids exert a multiplicity of neuroprotective actions within the brain, including a potential to protect neurons against injury induced by neurotoxins, an ability to suppress neuroinflammation, and the potential to promote memory, learning and cognitive function. These effects appear to be underpinned by two common processes. Firstly, they interact with critical protein and lipid kinase signalling cascades in the brain leading to an inhibition of apoptosis triggered by neurotoxic species and to a promotion of neuronal survival and synaptic plasticity. Secondly, they induce beneficial effects on the vascular system leading to changes in cerebrovascular blood flow capable of causing angiogenesis, neurogenesis and changes in neuronal morphology. Through these mechanisms, the consumption of flavonoid-rich foods throughout life holds the potential to limit neurodegeneration and to prevent or reverse age-dependent loses in cognitive performance. The intense interest in the development of drugs capable of enhancing brain function means that flavonoids may represent important precursor molecules in the quest to develop of a new generation of brain enhancing drugs.

Peroxynitrite induced formation of the neurotoxins 5-S-cysteinyl-dopamine and DHBT-1: implications for Parkinson's disease and protection by polyphenols

Mechanisms of nigral cell injury in Parkinson's disease remain unclear, although a combination of increased oxidative stress, the formation of catecholamine-quinones and the subsequent formation of neurotoxic cysteinyl-catecholamine conjugates may contribute. In the present study, peroxynitrite was observed to generate both 2-S- and 5-S-cysteinyl-dopamine and a dihydrobenzothiazine species, DHBT-1, following the reaction of dopamine with L-cysteine. The formation of 5-S-cysteinyl-dopamine and DHBT-1 in the presence of peroxynitrite induced significant neuronal injury. Pre-treatment of cortical neurons with pelargonidin, quercetin, hesperetin, caffeic acid, the 4'-O-Me derivatives of catechin and epicatechin (0.1-3.0 mu M) resulted in concentration dependant protection against 5-S-cysteinyl-dopamine-induced neurotoxicity. These data suggest that polyphenols may protect against neuronal injury induced by endogenous neurotoxins relevant to the aetiology of the Parkinson disease. (C) 2008 Elsevier Inc. All rights reserved.